Freescale Semiconductor Document Number: MPC8536EEC Data Sheet: Technical Data Rev. 7, 07/2015 MPC8536E MPC8536E PowerQUICC III Integrated Processor MAPBGA783 29 mm x 29 mm Hardware Specifications High-performance, 32-bit e500 core, scaling up to Support for various Ethernet physical interfaces: GMII, 1.5 GHz, that implements the Power Architecture TBI, RTBI, RGMII, MII, RGMII, RMII, and SGMII technology Support TCP/IP acceleration and QOS features 36-bit physical addressing MAC address recognition and RMON statistics support Double-precision embedded floating point APU using Support ARP parsing and generating wake-up events 64-bit operands based on the parsing results while in deep sleep mode Embedded vector and scalar single-precision Support accepting and storing packets while in deep floating-point APUs using 32- or 64-bit operands sleep mode Memory management unit (MMU) High-speed interfaces (multiplexed) supporting: Integrated L1/L2 cache Three PCI Express interfaces L1 cache32-Kbyte data and 32-Kbyte instruction PCI Express 1.0a compatible L2 cache512-Kbyte (8-way set associative) One x8/x4/x2/x1 PCI Express interface DDR2/DDR3 SDRAM memory controller with full ECC Two x4/x2/x1 ports, or, support One x4/x2/x1 port and Two x2/x1 ports One 64-bit/32-bit data bus Two SGMII interfaces Up to 333-MHz clock (667-MHz data rate) Two Serial ATA (SATA) controllers support SATA I and Supporting up to 16 Gbytes of main memory SATA I data rates Using ECC, detects and corrects all single-bit errors and PCI 2.2 compatible PCI controller detects all double-bit errors and all errors within a nibble Three universal serial bus (USB) dual-role controllers Invoke a level of system power management by comply with USB specification revision 2.0 asserting MCKE SDRAM signal on-the-fly to put the 133-MHz, 32-bit, enhanced local bus (eLBC) with memory memory into a low-power sleep mode controller Both hardware and software options to support Enhanced secured digital host controller (eSDHC) used for battery-backed main memory SD/MMC card interface Integrated security engine (SEC) optimized to process all Support boot capability from eSDHC the algorithms associated with IPsec, IKE, SSL/TLS, Integrated four-channel DMA controller 2 iSCSI, SRTP, IEEE Std 802.16e, and 3GPP. Dual I C and dual universal asynchronous XOR engine for parity checking in RAID storage receiver/transmitter (DUART) support applications Programmable interrupt controller (PIC) Enhanced Serial peripheral interfaces (eSPI) Power management, low standby power Support boot capability from eSPI Support Doze, Nap, Sleep, Jog, and Deep Sleep mode Two enhanced three-speed Ethernet controllers (eTSECs) PMC wake on: LAN activity, USB connection or remote with SGMII support wakeup, GPIO, internal timer, or external interrupt event Three-speed support (10/100/1000 Mbps) System performance monitor Two IEEE Std 802.3, IEEE 802.3u, IEEE 802.3x, IEEE Std 1149.1-compatible, JTAG boundary scan IEEE 802.3z, IEEE 802.3ac, IEEE 802.3ab, and 783-pin FC-PBGA package, 29 mm 29 mm IEEE Std 1588-compatible controllers Freescale reserves the right to change the detail specifications as may be required to permit improvements in the design of its products. 2009-2011, 2014-2015 Freescale Semiconductor, Inc. All rights reserved.Table of Contents 1 Pin Assignments and Reset States .3 2.23 Clocking . 105 1.1 Pin Map 4 2.24 Thermal . 109 2 Electrical Characteristics 21 3 Hardware Design Considerations 113 2.1 Overall DC Electrical Characteristics 21 3.1 System Clocking 113 2.2 Power Sequencing 25 3.2 Power Supply Design and Sequencing . 113 2.3 Power Characteristics 26 3.3 Pin States in Deep Sleep State . 114 2.4 Input Clocks .28 3.4 Decoupling Recommendations . 114 2.5 RESET Initialization .30 3.5 SerDes Block Power Supply Decoupling 2.6 DDR2 and DDR3 SDRAM 31 Recommendations . 115 2.7 eSPI .37 3.6 Connection Recommendations . 115 2.8 DUART .39 3.7 Pull-Up and Pull-Down Resistor Requirements . 115 2.9 Ethernet: Enhanced Three-Speed Ethernet (eTSEC), 3.8 Output Buffer DC Impedance 115 MII Management 39 3.9 Configuration Pin Muxing . 116 2.10 Ethernet Management Interface Electrical Characteristics 3.10 JTAG Configuration Signals . 117 60 3.11 Guidelines for High-Speed Interface Termination . 119 2.11 USB 62 4 Ordering Information 120 2.12 Enhanced Local Bus Controller (eLBC) 65 4.1 Part Numbering Nomenclature . 121 2.13 Enhanced Secure Digital Host Controller (eSDHC) .74 4.2 Part Marking . 122 2.14 Programmable Interrupt Controller (PIC) .76 4.3 Part Numbering . 122 2.15 JTAG .76 5 Package Information 122 2.16 Serial ATA (SATA) .78 5.1 Package Parameters for the FC-PBGA . 122 2 2.17 I C .84 5.2 Mechanical Dimensions of the FC-PBGA . 124 2.18 GPIO .87 6 Product Documentation 125 2.19 PCI 88 7 Document Revision History . 125 2.20 High-Speed Serial Interfaces 90 2.21 PCI Express .99 MPC8536E PowerQUICC III Integrated Processor Hardware Specifications, Rev. 7 2 Freescale Semiconductor